Publications

Journal Articles

2025

• [67] Guarino M. V., J. Ridley, S. Colwell, R. Farneti, G. Giuliani, H. Hersbach, N. Hindley, J. King, F. Kucharski, I. Polichtchouk, A.M. Tompkins, E. Vignon, C. Wright (2025), A long-term shift in flow regimes over the Antarctic Peninsula. Submitted.
• [66] Hu, A., I. Richter, Y. Okumura, N. Burls, N. Keenlyside, R. Parfitt, K. Bellomo, A. Bellucci, R. Farneti, A. Fedorov, B. Ferster, C. He, W. Kim, Q. Li, D. Matei (2025), Unraveling the Complexity of Global Climate Dynamics: ENSO, AMOC, and tropical basin Interactions. OLAR, Submitted.
• [65] Prigent, A., R. Farneti, F. Kucharski, A. Capotondi, J. F. Lubbecke (2025), Impact of wind forcing on the equatorial Pacific interannual variability in Ocean Model Intercomparison Project (OMIP) simulations. Climate Dynamics, Submitted.

• [64] Prigent, A., I. Richter, A. Storto, R. Farneti, R. A. Imbol Koungue, Y. Okumura, P. Chang (2025), Intercomparison of ocean reanalyses for interannual ocean temperature variability in the tropical Atlantic. Climate Dynamics, Submitted.

• [63] Ghoshal P. K., A.P. Joshi, K. Chakraborty, R. Farneti, V. Valsala (2025), Future changes in air temperature and precipitation over the Indian sub-continent using downscaled and bias-corrected CMIP6 Earth System Model outputs. Climate Dynamics, xxx.
• [62] Arbic, B. K. et al. (2025), The Coastal Ocean Environment Summer School In Nigeria and Ghana: The value of long-term, sustained capacity sharing. Oceanography, 38(1).

2024

• [61] Reis, R. A. do N., Justino F., de Mendonça L. F. F., R. Farneti, Tonelli M., Machado J. P., Lindemann D. da S. (2025), Representation of Dense Shelf Water formation by global oceanic reanalyses. Polar Research, 43,
• [60] Prigent, A., R. Farneti (2024), An assessment of equatorial Atlantic interannual variability in Ocean Model Intercomparison Project (OMIP) simulations. Ocean Sciences, 20, 1067-1086, 2024.
• [59] Arumi-Planas, C., S. Dong, R. Perez, M. Harrison, R. Farneti, A. Hernandez-Guerra (2024), A multi-data set analysis of the freshwater transport by the Atlantic Meridional Overturning Circulation at nominally 34.5S. JGR: Oceans, 129, e2023JC020558.
• [58] Molteni, F., F. Kucharski, R. Farneti (2024), Multi-decadal pacemaker simulations with an intermediate-complexity climate model. Weather Clim. Dynam., 5, 293-322.

2023

• [57] Prigent, A., R. A. Imbol Koungue, A. S. N. Imbol Nkwinkwa, G. Beobide-Arsuaga, R. Farneti (2023), Uncertainty on Atlantic Ni~no variability projections. GRL, 50, e2023GL105000.
• [56] Swart, N., T. Martin, …, R. Farneti, et al. (2023), The Southern Ocean Freshwater Input from Antarctica (SOFIA) Initiative: scientific objectives and experimental design. GMD, 16, 7289-7309.
• [55] Capotondi, …, R. Farneti, et al. (2023), Mechanisms of Tropical Pacific Decadal Variability. Nature Reviews Earth & Environment, 4, 754-769.
• [54] Navarro-Labastida, R., R. Farneti (2023), The role of shallow and deep circulations in the Tropical Pacific Ocean heat budget. Front. Mar. Sci. Sec. Physical Oceanography, 10.
• [53] Cainzos, V., A. Hernandez-Guerra, R. Farneti, M. D. Perez-Hernandez, L. D. Talley (2023), Mass, Heat and Freshwater Transport from Transoceanic Sections in the Atlantic Ocean at 30S and 24.5N: Single Sections Versus Box Models?, GRL, 50, 11.
• [52] Nnamchi, H.C., R. Farneti, N. S. Keenlyside, F. Kucharski, M. Latif, A. Reintges, T. Martin (2023), Pan-Atlantic decadal climate oscillation linked to ocean circulation, Communications Earth and Environment, 4, 121.

2022

• [51] Farneti, R., A. Stiz, J. Ssebandeke (2022), The southeast tropical Atlantic and the Angola-Benguela upwelling system: improvements and persistent biases, npj Clim Atmos Sci, 5, 42.
• [50] Ding R., I-S Kang, R. Farneti, F. Kucharski, F. Di Sante, J. Xuan, F. Zhou, T. Zhang (2022), The internal and ENSO-forced modes of the Indian Ocean sea surface temperature, J. of Climate, 35, 4191-4206.
• [49] Arumi-Planas, C., A. Hernandez-Guerra, P. Velez-Belchi, R. Farneti, M. R. Mazloff, S. Mecking, K. G. Speer, L. D. Talley (2022), Variability in the Meridional Overturning Circulation at 32S in the Pacific Ocean diagnosed by inverse box models, Progress in Oceanography, 203.
• [48] Narayanasetti, S., S. Panickal, R. Krishnan, R. Farneti, F. Kucharski, A. Modi, A.G. Prajeesh, D.C. Ayantika, S. Manmeet (2022), On the weakening association between South Asian Monsoon and Atlantic Multidecadal Oscillation, Climate Dynamics, 2531–2547.

2021

• [47] Graffino, G., R. Farneti, F. Kucharski (2021), Low-frequency variability of the Pacific Subtropical Cells as reproduced by coupled models and ocean reanalyses, Climate Dynamics, 56, 9, 3231-3254.
• [46] Villegas, N., I. Malikov, R. Farneti (2021), Sea surface temperature in continental and insular coastal Colombian waters: observations of the recent past and near-term numerical projections, Lat. Am. J. Aquat. Res., 49, 2, 307-328.

2020

• [45] Reale, M., F. Giorgi, C. Solidoro, V. Di Biagio, F. Di Sante, L. Mariotti, R. Farneti, G. Sannino (2020), The Regional Earth System Model RegCM-ES: Evaluation of the Mediterranean climate and marine biogeochemistry, JAMES, 12, 9.
• [44] Todd, A., L. Zanna, Q. Wu, J. Gregory, R. Farneti, R. Navarro-Labastida, K. Lyu, O. Saenko, D. Yang, X. Zhang (2020), Ocean-only FAFMIP: understanding regional patterns of ocean heat uptake and dynamic sea level change, JAMES, 12, 8.
• [43] Narayanasetti, S., Panickal, S., R. Krishnan, R. Farneti, A. G. Prajeesh, D. C. Ayantika, S. Manmeet (2020), South Asian Monsoon response to weakening of Atlantic meridional overturning circulation in a warming climate, Climate Dynamics, 54, 3507-3524.
• [42] Rahaman, H., U. Srinivasu, S. Panickal, J. Durgadoo, S. M. Griffies, M. Ravichandran, A. Bozec, A. Cherchi, G. Danabasoglu, R. Farneti, K. Getzlaff, M. Ilicak, S.J. Marsland, H. Tsujino, S. Valcke, A. Voldoire, Q. Wang (2020), An assessment of the Indian Ocean mean state and seasonal cycle in a suite of interannual CORE-II simulations, Ocean Modelling, 145, 101503.

2019

• [41] Graffino, G., R. Farneti, F. Kucharski, F. Molteni (2019), The effect of wind stress anomalies and their location in driving Pacific Subtropical cells and tropical climate, J. of Climate, 32, 5, 1641-1660.
• [40] Stammer, D., A. Bracco, L. Beal, N. Bindoff, P. Braconnot, W. Cai, D. Chen, G. Danabasoglu, B. Dewitte, R. Farneti, K. Takahashi Guevara, B. Fox Kemper, J. Fyfe, S. M. Griffies, S. Jayne, R. Mathew Koll, A. Lazar, M. Lengaigne, X. Lin, S. Marsland, P. Monteiro, W. Robinson, R. Rykaczewski, S. Speich, I. J. Smith, A. Solomon, J. Vialard (2019), Ocean climate observing requirements in support of climate research and climate information. Proceedings of OceanObs’19, Frontiers in Marine Science.
• [39] Newmann, L., P. Heil, R. Trebilco, K. Katsumata, A. J. Constable, E. van Wijk, K. Assmann, J. Beja, P. Bricher, R. Coleman, D. Costa, S. Diggs, R. Farneti, S. Fawcett, S. T. Gille, K. R. Hendry, S. F. Henley, E. Hofmann, T. Maksym, M. Mazloff, A. J. Meijers, M. P. Meredith, S. Moreau, B. Ozsoy, R. Robertson, I. R. Schloss, O. Schofield, J. Shi, E. L. Sikes, I. J. Smith, S. Swart, A. Wahlin, G. Williams, M. J. Williams, L. Herraiz-Borreguero, S. Kern, J. Lieser, R. Massom, J. Melbourne-Thomas, P. Miloslavich, G. Spreen (2019), Delivering sustained, coordinated and integrated observations of the Southern Ocean for global impact. Proceedings of OceanObs’19, Frontiers in Marine Science.
• [38] Di Sante, F., E. Coppola, R. Farneti and F. Giorgi (2019), Indian Summer Monsoon as simulated by the Regional Earth System Model RegCM-ES: the role of local air-sea interaction, Climate Dynamics, 53, 759-778.

2018

• [37] Barreiro, M., L. Sitz, S. de Mello, R. Fuentes-Franco, M. Renom, R. Farneti (2018), Modeling the role of air-sea interaction in the impact of the MJO on South American climate. {\it Int. J. Climatology, Int. J. Climatology, 39, 2, 1104-1116.

2017

• [36] Farneti, R. (2017), Modelling interdecadal climate variability and the role of the ocean, WIREs Clim Change, 8 (1).
• [35] Nnamchi, H., F. Kucharski, N. Keenlyside, R. Farneti (2017), Analogous seasonal evolution of South Atlantic SST dipole indices, Atmos. Sci. Lett., 18(10), 396-402.
• [34] Reale, M., S. Salon, A. Crise, R. Farneti, R. Mosetti, G. Sannino (2017), Unexpected covariant behavior of the Aegean and Ionian Seas in the period 1987-2008 by means of a non-dimensional sea surface height index, JGR: Oceans, 122, 10, 8020-8033.
• [33] Sitz, L., F. Di Sante, R. Farneti, R. Fuentes-Franco, G. Sannino, M. Barreiro, L. Mariotti, M. Reale, E. Coppola, F. Giorgi (2017), Description and evaluation of the Earth System Regional Climate Model (Reg CM-ES), JAMES, 9, 4, 1863-1886.
• [32] Molteni, F., R. Farneti, F. Kucharski, T. N. Stockdale (2017), Modulation of air-sea fluxes by extratropical planetary waves and its impact during the recent surface warming slowdown, GRL, 44, 3, 1494-1502.

2016

• [31] Reale, M., A. Crise, R. Farneti, R. Mosetti (2016), A process study of the Adriatic-Ionian system baroclinic dynamics, JGR: Oceans, 121, 5872-5887.
• [30] Tseng, Y-h., …, R. Farneti, et al. (2016). North and Equatorial Pacific Ocean Circulation in the CORE-II Hindcast Simulations. Ocean Modelling, 104, 143-170.
• [29] namchi, H., J. Li, F. Kucharski, I-S. Kang, N. S. Keenlyside, P. Chang, R. Farneti (2016), An equatorial-extratropical dipole structure of the Atlantic Ni~no. J. of Climate, 29, 7295-7311.
• [28] Kucharski, F., A. Parvin, B. Rodriguez-Fonseca, R. Farneti, M. Martin-Rey, I. Polo, E. Mohino, T. Losada, C. R. Mechoso (2016), The teleconnection of the tropical Atlantic to Indo-Pacific sea surface temperatures on interannual to centennial time scales: a review of recent findings. Atmosphere, 7(2), 29.
• [27] Danabasoglu, G., …, R. Farneti, et al. (2016), North Atlantic simulations in Coordinated Ocean-ice Reference Experiments phase II (CORE-II). Part II: Interannual to decadal variability. Ocean Modelling, 97, 65-90.
• [26] Kucharski, F., F. Ikram, F. Molteni, R. Farneti, I.-S. Kang, H.-H. No, M. P. King, G. Giuliani, K. Mogensen (2016), Atlantic forcing of Pacific decadal variability, Climate Dynamics, 46, 7, 2337-2351.

2015

• [25] Farneti, R., et al. (2015), An assessment of Antarctic Circumpolar Current and Southern Ocean Meridional Overturning Circulation during 1958–2007 in a suite of interannual CORE-II simulations. Ocean Modelling, 93, 84-120.
• [24] Downes, S., R. Farneti, et al. (2015), An assessment of Southern Ocean water masses and sea-ice during 1988-2007 in a suite of interannual CORE-II simulations. Ocean Modelling, 94, 67-94.
• [23] Sitz, L., R. Farneti, S. M. Griffies (2015), Simulated South Atlantic transports and their variability during 1958-2007. Ocean Modelling, 91, 70-90.
• [22] Nnamchi, H., J. Li, F. Kucharski, I-S. Kang, N. S. Keenlyside, P. Chang, R. Farneti (2015), Thermodynamic controls of Atlantic Ni$~n$o. Nat. Comm., 6:8895.

2014

• [21] Farneti, R., S. Dwivedi, F. Kucharski, F. Molteni, S. M. Griffies (2014), On Pacific subtropical cell variability over the second half of the 20th century. J. of Climate, 27, 18, 7102-7112.
• [20] Farneti, R., F. Molteni, F. Kucharski (2014), Pacific interdecadal variability driven by tropical-extratropical interactions. Climate Dynamics, 42, 3337–3355.
• [19] Griffies, S., … , R. Farneti, et al. (2014), Global and regional sea level in a suite of interannual CORE-II hindcast simulations. Ocean Modelling, 78, 35-89.
• [18] Danabasoglu, G., … , R. Farneti, et al. (2014), North Atlantic simulations in Coordinated Ocean-ice Reference Experiments phase II (CORE-II). Part I: Mean states. Ocean Modelling, 73, 76-107.

2013

• [17] Farneti, R. and G. K. Vallis (2013), Meridional energy transport in the coupled atmosphere-ocean system: Compensation and partitioning. J. of Climate, 26, 18, 7151-7166.
• [16] Farneti, R., S. Salon, A. Crise, R. Martinez (2013), Climate change in Mediterranean and Caribbean seas: research experiences and new scientific challenges. Bull. Amer. Meteor. Soc., 94, ES89-ES92.
• [15] F$\v{u}$ckar, N. S., S.-P. Xie, R. Farneti, E. Maroon, D.W. Frierson (2013), Influence of extratropical ocean circulation on the intertropical convergence zone in an idealized coupled general circulation model. J. of Climate, 26, 13, 4612–4629.
• [14] Kwon, E. Y., S. Downes, J. Sarmiento, R. Farneti, C. Deutsch (2013), The role of seasonal cycle in the subduction rates of Southern Ocean mode waters, J. Phys. Oceanogr., 43, 1096-1113.
• [13] Kucharski, F., F. Molteni, M.P. King, R. Farneti, I.-S. Kang, L. Feudale (2013), On the need of intermediate complexity general circulation models: a `SPEEDY’ example, Bull. Amer. Meteor. Soc., 94, 1, 25-30.

2012

• [12] Meredith, M. P., A. C. Naveira Garabato, A. McC. Hogg, R. Farneti (2012), Sensitivity of the overturning circulation in the Southern Ocean to climate change, J. of Climate, 25, 1, 99-110.

2011

• [11] Farneti, R. and G.K. Vallis (2011), Mechanisms of interdecadal climate variability and the role of ocean-atmosphere coupling, Climate Dynamics, 36, 1, 289-308.
• [10] Farneti, R., P. R. Gent (2011), The effects of the eddy-induced advection coefficient in a coarse-resolution coupled climate model, Ocean Modelling, 39, 135–145.
• [9] Griffies, S. M., M. Winton, L. J. Donner, S. Downes, R. Farneti, A. Gnanadesikan, L. W. Horowitz, W. Hurlin, H.-C. Lee, J. B. Palter, B. L. Samuels, A. Wittenberg, B. L. Wyman, J. Yin (2011), GFDL’s CM3 coupled climate model: Characteristics of the ocean and sea ice simulations, J. of Climate, 24, 13, 3520-3544.
• [8] Downes, S. M., A. Budnick, J. L. Sarmiento, R. Farneti (2011), Impacts of wind stress on the Antarctic Circumpolar Current fronts and associated subduction, GRL, 38, L11605.
• [7] Kucharski, F., I.-S. Kang, R. Farneti, L. Feudale (2011), Tropical Pacific response to 20th Century Atlantic warming, GRL, 38, L03702.

2010

• [6] Farneti, R., T. L. Delworth (2010), The role of mesoscale eddies in the remote oceanic response to altered Southern Hemisphere winds, J. Phys. Oceanogr., 40, 10, 2348-2354.
• [5] Farneti, R., T. L. Delworth, A. J. Rosati, S. M. Griffies, F. Zang (2010), The role of mesoscale eddies in the rectification of the Southern Ocean response to climate change, J. Phys. Oceanogr., 40, 7, 1539-1557.

2009

• [4] Farneti, R. and G.K. Vallis (2009), An Intermediate Complexity Climate Model (ICCMp1) based on the GFDL Flexible Modelling System, GMD, 2, 1, 73-88.
• [3] Vallis, G. K. and R. Farneti (2009), Meridional energy transport in the coupled atmosphere-ocean system: Scaling and numerical experiments, QJRMS, 135, 644, 1643-1660.

2007

• [2] Farneti, R. (2007), Coupled interannual Rossby waves in a Quasi-Geostrophic coupled model, J. Phys. Oceanogr., 37, 5, 1192-1214.

2005

• [1] Farneti, R. and P.D. Killworth (2005), The effects on oceanic planetary waves of coupling with an atmospheric energy balance model, Tellus A, 57A, 742-757.